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4.23.18 The UCSD Guardian Online
"UCSD Students Develop Chip Implant to Monitor Blood Alcohol Content"
Students at UC San Diego have created a tiny biosensor that can wirelessly monitor the blood alcohol levels of its user. The project's goal is to develop an unobtrusive way to continuously monitor alcohol and drug levels of patients in substance abuse treatment programs. The biosensor chip is injected into the user's skin and is powered wirelessly by an external smartwatch or patch. Preliminary studies have demonstrated that the lifetime of the device is greater than 30 days, although research is still ongoing. UCSD electrical engineering professor Drew Hall served as the faculty advisor.

4.18.18 New Start Recovery
"New Injectable Alcohol Biosensor Monitors BAC"
For recovering alcoholics, accountability remains one of the most elusive pitfalls of long term sobriety. It's easy to backslide into bad habits when no one is watching. But thanks to UC San Diego's Jacobs School of Engineering, there is hope on the horizon for long term sober accountability. They are developing an injectable alcohol biosensor chip that continuously monitors blood alcohol content (BAC).

4.18.18 KPBS
"The Next Big Idea: On The Ground Floor Of A Potential Biotech Giant"
Every billion-dollar company has to start somewhere and Ana Maria Moreno may have the seeds of one here in San Diego. She's the co-founder and CEO of Navega Therapeutics, an early-stage biotech startup with ambitions to solve the nation's opioid crisis. Moreno and her team are working on a way to decrease people's sensitivity to pain without a pain-relieving drug. The idea is based on Moreno's work as a doctoral student at UC San Diego; her faculty advisor Prashant Mali is the company's other co-founder.

4.17.18 The Big Smoke Australia
"Science creates e-snitch to get you to stop drinking"
Sometimes to kick a habit, all we need is a gentle prod. Or in this case, a subdermal electronic snitch. These chips totally narc on you when you decide to get drunk. Researchers at the University of California San Diego (UCSD) developed the tech, which is a biosensor of one cubic millimetre in size. So, how does it work? Well, when the person/subject drinks, an enzyme coating the sensor rockets a wireless electrical signal to a second party, such as a smartwatch, or an app, anything that remotely powers the sensor.

4.17.18 Smithsonian
"This Implantable Chip Could Monitor Alcohol Intake"
People arrested for DUIs or other alcohol-related offenses are sometimes ordered to wear so-called SCRAM (secure continuous remote alcohol monitoring) bracelets. The device, usually worn on the ankle, can detect alcohol consumption through the skin. Patients in rehab programs often submit to alcohol monitoring as well, often through Breathalyzers or blood tests. But SCRAM bracelets are clunky and sometimes embarrassing, and tests require regular visits. A team of scientists from UC San Diego has come up with a potential alternative: a tiny implantable chip.

4.17.18 U.S. News & World Report
"Skin Sensor Might Someday Track Alcoholics' Booze Intake"
An injectable sensor that could provide ongoing monitoring of the alcohol intake of people receiving addiction treatment is in development. The miniature biosensor would be placed just beneath the skin surface and be powered wirelessly by a wearable device, such as a smartwatch or patch, the University of California, San Diego engineers explained. "The ultimate goal of this work is to develop a routine, unobtrusive alcohol and drug monitoring device for patients in substance abuse treatment programs," project leader Drew Hall said in a university news release.

4.17.18 KPBS
"UC San Diego Bio-Engineers Develop Wearable Device To Monitor Stomach Activity"
In 2011, UC San Diego bioengineer Todd Coleman developed some thin, flexible sensors that could measure electrical activity in the brain. That same year, his father died of pancreatic cancer. His grandmother died from stomach cancer years before. That got Coleman thinking. "Are there electrical rhythms of the digestive system? Maybe we could measure them with these new devices, and maybe this could help solve some of the problems that have been associated with my family," he wondered.

4.12.18 Canadian Homesteading
"Robotic Grippers to Receive Gecko Toes"
Scientists from the University of California from San Diego, have consolidated the adhesive attributes of gecko toes with air-controlled robots which appear to be soft, to give robot fingers a superior use. Fit for lifting objects up to 45 pounds, the gripper could be utilized wherever: from the floor to the International Space Station.

4.12.18 HemOnc Today
"Remote-controlled immunotherapy system shows potential as noninvasive cancer treatment"
Engineering researchers at University of California, San Diego, developed a remote-controlled cancer immunotherapy system. The ultrasound-based system is designed to noninvasively control genetic processes in T cells to recognize and kill cancer cells. HemOnc Today spoke with Wang about how this system was developed, how it works, the early efficacy it has demonstrated and the research underway to validate its effectiveness.

4.11.18 New Atlas
"Injectable chip measures alcohol consumption"
There may be a new -- if perhaps somewhat Big Brother-like -- method of monitoring the alcohol intake of people in substance abuse treatment programs. Led by Prof. Drew Hall, scientists at the University of California San Diego have developed an alcohol-sensing chip that can be implanted in the body. The chip is designed to be injected under the skin, where it will sit in the interstitial fluid that surrounds the cells. The chip uses very little power (which it draws from the watch's RF signals) and takes just three seconds to conduct one measurement.

4.11.18 Futurism
"Trying to Quit Drinking? This Implant Will Snitch If You Fall off the Wagon"
Christmas parties. Dates. Football games. Cookouts. Wherever humans socialize, you can bet that the booze will follow. Its omnipresence, plus its addictive qualities, can make it really hard for people to stop drinking, even if they really want to. Now, researchers are working on a new alcohol-monitoring implant that could help people stay on the wagon. All they'll have to give up is some of their autonomy. Researchers at the University of California San Diego developed the implant, a biosensor about one cubic millimeter in size. It's easy to implant under a person's skin, no surgery requir

4.11.18 Engadget
"A temporary tattoo may be able to track your alcohol levels"
A new monitoring device could help people discreetly measure their alcohol intake by transmitting alcohol levels to a connected cell phone. The tech, developed by engineers at the University of California San Diego, is a small wearable, comparable to a temporary tattoo, that sits directly on the skin. According to Science Daily, it works by stimulating perspiration, which the device can then use to measure the level of alcohol in the person's system.

4.11.18 Slash Gear
"Soft, flexible gripper uses Gekco-inspired adhesives"
Soft robotics is something that researchers around the world are working on. The idea is to create robotic devices that can grip strangely sized object like the rock in the image. The challenge is to design robotic implements that can flex enough to grip the irregularly shaped objects, but still have the strength to lift them. Researchers from UC San Diego have created a soft robotic gripper that can lift up to 45 pounds. The new gripper could be used in a variety of situations from factory floors to the ISS. The soft gripper is coated with an adhesive inspired by the Gecko

4.11.18 Photonics Media
"Red Light-Activated Switch for Mammalian Cells Is Powered by Plant Protein"
An optogenetic switch activated by red and far-red light has been designed and tested in animal cells. The light-activated switch, which does not require the addition of sensing molecules from outside the cells, could be used to turn genes on and off in gene therapies; to turn off gene expression in future cancer therapies; and to help track and understand gene function in specific locations in the human body. Researchers from UC San Diego, Quinnipiac University, and the University of Iowa devised a way to enable animal cells to transfer enough electrons from their energy supply to enzymes

4.10.18 Forbes
"How This Wireless Biosensor Chip Injected Under The Skin Can Monitor Alcohol Levels"
Engineers from the University of California San Diego say they've developed a wireless biosensor chip that could be injected beneath the skin for continuous, long-term alcohol monitoring. The low power chip can be powered wirelessly through a wearable device and could make it easier for patients to follow a prescribed course of tracking over an extended period of time as well as change the way substance abuse disorders are diagnosed, monitored and treated. The biosensor chip, which is in an early prototyping stage, is one cubic millimeter in size and can be injected under the skin.

4.10.18 Discover
"Tiny Alcohol Monitor Sits Just Beneath the Skin"
A tiny chip implanted just under the skin could be the Breathalyzer of the future. Researchers from the University of California San Diego reported today that they had created a tiny chip that can read levels of alcohol in the body and relay that information to a smartwatch. It could be an alternative to traditional means of detecting whether someone has been drinking, and offers users the ability to monitor their blood-alcohol levels in real-time. The chip measures about a cubic millimeter in size and is powered by a smartwatch or external patch, meaning it doesn't need a battery.

4.10.18 MIT Technology Review
"The next breathalyzer may be a chip implanted under your skin"
A group of engineers at the University of California, San Diego, created a prototype of a chip, meant to be injected under the skin, that could eventually be helpful for people who are in treatment for alcohol abuse. At just one millimeter across, it's a fraction the size of a penny, which means it would be a lot less bulky than current alcohol-monitoring bracelets. Researchers say it can be more accurate than a breathalyzer test, and it's less invasive than a blood test.

4.10.18 New Atlas
"Soft robotic fingers use gecko-inspired coating for some heavy lifting"
One particularly active area of robotics research involves the exploration of soft parts. Be they legs, artificial muscles or the grippers used to grasp objects, these more malleable components are opening up new possibilities and making machines safer for humans to work around. Now they're gaining a helping hand from the amazing adhesive properties of the gecko, combining to form robotic fingers that punch well above their weight. Adhesives that can be switched on and off, grippers that latch onto space debris and anchors that can be used by astronauts

4.10.18 Business Standard
"Gecko-inspired adhesives help soft robotic fingers get better grip"
Scientists have developed a robotic gripper that combines the adhesive properties of gecko toes and the adaptability of air-powered soft robots to grasp a wide variety of objects. The gripper can lift up to 20 kilogrammes of weight and could be used to grasp objects in a wide range of settings, from factory floors to the International Space Station (ISS), according to researchers at the University of California San Diego in the US. Geckos are known as nature's best climbers because of a sophisticated gripping mechanism on their toes.

4.10.18 Modern American News
"Engineers Create a Tiny Wireless Injectable Biosensor"
What if you could inject a biosensor into the fluid in your skin that can monitor alcohol or other substances and control it with your smartwatch or other wearable? Engineers at the University of California San Diego along with a start up in the Qualcomm Innovation Institute are working on a prototype that can do just that. Less than the size of a 16 gauge needle, this wireless biosensor chip can be injected into the fluid surrounding the cells in your body. The biosensor was designed to be a low power as possible, around 970 nanowatts.

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